澳大利亚鸣禽的体型追踪气候变化:50年来有82种鸣禽

J. Gardner, Tatsuya Amano, Anne Peters, W. Sutherland, B. Mackey, L. Joseph, J. Stein, Karen Ikin, R. Little, Jesse Smith, M. Symonds
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引用次数: 19

摘要

观察到的恒温动物体型对气候变化反应的变化可以用两种假设来解释:体型随气候变化而增加(抗饥饿假说),体型随平均温度升高而缩小(热交换假说)。在澳大利亚82种雀形目鸟类中,在50年的时间里,由于冬季气温上升,干旱和温带地区的雀形目鸟类的年平均气温上升超过0.012°C,导致它们的萎缩。我们提出暖冬假说来解释这种反应。在夏季平均气温超过34℃的地区,年平均气温上升超过0.0116℃的物种有增大体型的趋势。结果表明,对气候变化有广泛的生理反应,其大小趋势可能反映了气候条件下选择压力的相对强度。关键的是,给定数量的温度变化将对表型产生不同的影响,这取决于它发生的季节,掩盖了与温度变化相关的大小模式的普遍性。而不是表现型的可塑性,假设体型是遗传的,结果表明,特定表现型的选择性丧失或获得可能会产生进化变化,但在当前的变暖速度下可能很难检测到。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Australian songbird body size tracks climate variation: 82 species over 50 years
The observed variation in the body size responses of endotherms to climate change may be explained by two hypotheses: the size increases with climate variability (the starvation resistance hypothesis) and the size shrinks as mean temperatures rise (the heat exchange hypothesis). Across 82 Australian passerine species over 50 years, shrinking was associated with annual mean temperature rise exceeding 0.012°C driven by rising winter temperatures for arid and temperate zone species. We propose the warming winters hypothesis to explain this response. However, where average summer temperatures exceeded 34°C, species experiencing annual rise over 0.0116°C tended towards increasing size. Results suggest a broad-scale physiological response to changing climate, with size trends probably reflecting the relative strength of selection pressures across a climatic regime. Critically, a given amount of temperature change will have varying effects on phenotype depending on the season in which it occurs, masking the generality of size patterns associated with temperature change. Rather than phenotypic plasticity, and assuming body size is heritable, results suggest selective loss or gain of particular phenotypes could generate evolutionary change but may be difficult to detect with current warming rates.
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